SENSORY SYSTEMS General aspects - KTH
Transcript of SENSORY SYSTEMS General aspects - KTH
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SENSORY SYSTEMS General aspects
Peter Århem
Inst f neurovetenskap
Karolinska institutet
• Exteroception - reception of information from outside body
• Enteroception - reception of information from inside body
• Proprioception – reception of information about "self"
Attributes of stimuli
• Modality – Labeled line code
• Intensity – Frequency code
• Duration – Temporal code
• Localization – Labeled line code
Types of sensory information
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BASIC CONCEPTS
Specialized neurons or specialized parts of neurons
• Mechanoreceptors
• Chemoreceptors
• Photoreceptors
• Thermoreceptors
Sensory receptors
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Adaptation
Several mechanisms at different levels
• Receptor cell – Ca2+ affects KCa channels
• Accessory structures – Pacinian corpuscle
• Central mechanisms
Adaptation mechanisms
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Transduction
Stimulus energy
ion channels (directly or indirectly)
receptor potential (local and graded)
action potential (propagated and all-or-none)
The transduction mechanism
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BODILY SENSES
• Touch: Merkel, Meissner, Pacini, Ruffini
• Temperature: Free nerve endings – cold and warm receptors
• Pain: Free nerve endings
• Proprioception: Muscle spindles, Golgi tendon organs, joint receptors
Bodily senses - four systems
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Touch, temperature and pain – skin receptors
Skin receptors - specialized terminals of dorsal root ganglion cells
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Ventral root
Dorsal root ganglion
Dorsal root
Spinal nerve
Anatomy of dorsal roots and spinal nerves
Two skin receptor pathways - Touch and pain/temperature
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Touch and pressure – dorsal column-medial lemniscal pathway
Pain and temperature – anterolateral spinothalamic tract
The two central pathways of touch and pain/temperature
Principal organisation of sensory systems
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Central touch pathway – dorsal column-medial lemniscal pathway
Central pain/temperature pathway – the anterolateral spinothalamic tract
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Superficial (small receptive fields – 2-4 mm)
• Meissner – rapid adaptation (sensitivity max at 30 Hz)
• Merkel – slow adaptation
Deep (large receptive fields)
• Pacini – rapid adaptation (sensitivity max at 300 Hz)
• Ruffini – slow adaptation
Properties of touch receptors - Location and adaptation
The density of skin receptors tested by two-point discrimination
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Touch receptor fibres are A fibres Pain/temperature fibres are A or C fibres
Classification of fibre types
Type diameter (m) velocity (m/s)
A 13-20 80 -120
A 6-12 35 - 75
A 5-8 25-45
A 1-5 5 - 35
C 0.2-1.5 0.5 – 2
Erlanger och Gasser, Nobel prize 1944
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Figure 9.8 Schematic representation of the main mechanosensory pathways (Part 1)
The touch pathway (via spinal nerves)
Receptors A fibres in spinal nerves (dorsal root ganglion) ipsilateral dorsal column dorsal column nuclei (nucleus cuneatus and gracilis) contralateral medial lemniscus thalamus (VPL) somatosensory cortex (SI, SII and posterior parietal cortex)
The touch pathway from receptors to cortex (via spinal nerves)
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Dermatomes
Dermatome = afferent spinal nerve projection area
• C1 to C8 (cervical)
• T1 to T12 (thoracic)
• L1 to L5 (lumbar)
• S1 to S4 (sacral)
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The touch pathway (via the trigeminal nerve)
Receptors A fibres in n. trigeminus (trigeminal ganglion = ganglion semilunare/Gasseri) ipsilateral nucleus of trigeminal complex in brainstem contralateral thalamus (VPM) somatosensory cortex (SI, SII and posterior parietal cortex)
The touch pathway (via the trigeminal nerve)
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Cranial nerves
N. olfactorius I
N. opticus II
N. oculomotorius III
N. trochlearis IV
N. trigeminus V
N. abducens VI
N. facialis VII
N. vestibulocochlearisVIII
N. glossopharyngeus IX
N. vagus X
N. accessorius XI
N. hypoglossus XII
The afferent trigeminal nerve projection areas
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Touch pathways in the brain
Touch pathways in the brain (from spinal
nerves)
Receptors A fibres (dorsal root ganglion) ipsilateral dorsal column dorsal column nuclei (nucleus cuneatus and gracilis) contralateral medial lemniscus thalamus (VPL) somatosensory cortex (SI, SII and posterior parietal cortex)
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Receptors A fibres in n. trigeminus (trigeminal ganglion = ganglion semilunare/Gasseri) ipsilateral nucleus of trigeminal complex in brainstem contralateral thalamus (VPM) somatosensory cortex (SI, SII and posterior parietal cortex)
Touch pathway in the brain (from the
trigeminal nerve)
• Four distinct cytoarchitectonic regions in SI (1, 2, 3a and 3b)
• Somatotopic organization - homunculus
• Each of the four regions of SI – complete body map
• Columnar organization – reflecting receptor type
Organization of somatosensory cortex
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Kulturell betydelse
PAIN, TEMPERATURE
Central pathways for discriminative pain and temperature (from spinal nerves)
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Receptors A och C fibres (dorsal root ganglion) dorsal horn contralateral anterolateral spinothalamic tract thalamus (VPL) somatosensory cortex
Central pathways for discriminative pain and
temperature (from spinal nerves)
Ganglion trigeminale
Central pathways for discriminative pain and temperature (from the trigeminal nerve)
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Receptors A och C fibres in n. trigeminus (ganglion trigeminale = ganglion semilunare = ganglion Gasseri) trigeminal complex in brainstem thalamus (VPM) somatosensory cortex
Central pathways for discriminative pain and
temperature (from the trigeminal nerve)
Questions (somatosensory system):
1. The four major classes of bodily sense (somatic sensory) receptors? 2. The four cutaneous mechanoreceptors (touch receptors)? 3. Which touch receptor is most sensitive to high
frequency vibrations? 4. The two major somatosensory pathways to the brain? 5. What information is transported in these two pathways? 6. First neuron in the somatosensory pathways to brain? 7. Second neuron in the somatosensory pathways to brain? 8. Somatosensory nuclei in thalamus (body and face)? 9. Location of somatosensory cortex? 10. Organization of somatosensory cortex?